Multifunctional RNA-binding proteins influence mRNA abundance and translational efficiency of distinct sets of target genes

Schneider-Lunitz, Valentin; Ruiz-Orera, Jorge; Hübner, Norbert; Heesch, Sebastiaan van

doi:10.1101/2021.04.13.439465

Cited by 5 publications

(4 citation statements)

References 99 publications

(195 reference statements)

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“…The co-mRNA transfection data in Figure 3C show that in situ competition in the translation of Spike and Nuc mRNAs, are consistent with previous studies showing that endogenous cellular RNAs compete with each other for resources used in translation including association with RNA binding proteins that are integral to the process of translation (Asselbergs et al, 1978;Godefroy-Colburn and Thach, 1981;Jain et al, 2022;Ray et al, 1983;Schneider-Lunitz et al, 2021). Studies have further shown that SARS-CoV-2 infection results in reduced translation of host-cell mRNAs that have a preponderance of the same codons that are enriched in SARS-CoV-2 (Alonso and Diambra, 2020) also known as epistasis (Mogro et al, 2022;Fumagalli et al, 2023).…”

Section: Discussionsupporting

confidence: 90%

Single cell phototransfection of mRNAs encoding SARS-CoV2 spike and nucleocapsid into human astrocytes results in RNA dependent translation interference

Kim,

Brosseau,

Radzio

et al. 2024

Front. Drug Deliv.

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Multi-RNA co-transfection is starting to be employed to stimulate immune responses to SARS-CoV-2 viral infection. While there are good reasons to utilize such an approach, there is little background on whether there are synergistic RNA-dependent cellular effects. To address this issue, we use transcriptome-induced phenotype remodeling (TIPeR) via phototransfection to assess whether mRNAs encoding the Spike and Nucleocapsid proteins of SARS-CoV-2 virus into single human astrocytes (an endogenous human cell host for the virus) and mouse 3T3 cells (often used in high-throughput therapeutic screens) synergistically impact host cell biologies. An RNA concentration-dependent expression was observed where an increase of RNA by less than 2-fold results in reduced expression of each individual RNAs. Further, a dominant inhibitory effect of Nucleocapsid RNA upon Spike RNA translation was detected that is distinct from codon-mediated epistasis. Knowledge of the cellular consequences of multi-RNA transfection will aid in selecting RNA concentrations that will maximize antigen presentation on host cell surface with the goal of eliciting a robust immune response. Further, application of this single cell stoichiometrically tunable RNA functional genomics approach to the study of SARS-CoV-2 biology promises to provide details of the cellular sequalae that arise upon infection in anticipation of providing novel targets for inhibition of viral replication and propagation for therapeutic intervention.

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Section: Discussionsupporting

confidence: 90%

Single cell phototransfection of mRNAs encoding SARS-CoV2 spike and nucleocapsid into human astrocytes results in RNA dependent translation interference

Kim,

Brosseau,

Radzio

et al. 2024

Front. Drug Deliv.

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“…The described examples of stability regulation achieved via CDS binding are so far sparse and seem to be well-connected to the regulation of translation, which is in line with the above reasoning. In fact, dual regulatory effects of the same RBPs, impacting both mRNA stability and translation rates, have been postulated for some RBPs [ 19 ]. The two functionalities seem to be intertwined also in the case of CDS-binding RBPs.…”

Section: Functionality Of Cds Bindingmentioning

confidence: 99%

Protein Binding to Cis-Motifs in mRNAs Coding Sequence Is Common and Regulates Transcript Stability and the Rate of Translation

Grzybowska

Wakuła

2021

Cells

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Protein binding to the non-coding regions of mRNAs is relatively well characterized and its functionality has been described in many examples. New results obtained by high-throughput methods indicate that binding to the coding sequence (CDS) by RNA-binding proteins is also quite common, but the functions thereof are more obscure. As described in this review, CDS binding has a role in the regulation of mRNA stability, but it has also a more intriguing role in the regulation of translational efficiency. Global approaches, which suggest the significance of CDS binding along with specific examples of CDS-binding RBPs and their modes of action, are outlined here, pointing to the existence of a relatively less-known regulatory network controlling mRNA stability and translation on yet another level.

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“…The copyright holder for this preprint this version posted October 23, 2022. ; https://doi.org/10.1101/2022.10.23.513405 doi: bioRxiv preprint 2017; Mo et al, 2021;Schneider-Lunitz et al, 2021). DDX3 overexpression has been implicated in many diseases including viral infections, inflammatory autoimmune diseases, and many forms of cancer (Bol et al, 2015;Kukhanova et al, 2020;Tantravedi et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

“…RNA binding proteins (RBPs) are capable of regulating translation for the rapid modulation of protein synthesis from the existing mRNA (Hentze et al, 2018). RBPs can either sequester mRNA to slow translation, such as the P-body proteins AGO2 and UPF1; promote translation, such as DDX3, or actively suppress and degrade mRNA, such as CELF2 (Hubstenberger et al, 2017; Mo et al, 2021; Schneider-Lunitz et al, 2021). DDX3 overexpression has been implicated in many diseases including viral infections, inflammatory autoimmune diseases, and many forms of cancer (Bol et al, 2015; Kukhanova et al, 2020; Tantravedi et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

Inhibiting a mRNA motif binding protein that mediates TGF-β1 upregulation of translation attenuates pulmonary fibrosis in mice

Chen

Pilling

2022

Preprint

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In human lung cells, the profibrotic cytokine TGF-β1 increases sialidase 3 (NEU3) protein by increasingNEU3translation without increasing levels ofNEU3mRNA. To elucidate how TGF-β1 regulates translation, we treated human lung fibroblasts (HLF) with TGF-β1 and used proteomics and RNA-seq to determine the effect of TGF-β1 on proteins, mRNAs, and mRNA polysome/monosome ratios. We identified 181 mRNAs where TGF-β1 also increases translation to increase protein levels without significantly affecting mRNA levels. These mRNAs share a common 20 nucleotide motif. Deletion or insertion of this motif in mRNAs eliminates or induces the TGF-β1 regulation of translation. At least 5 RNA-binding proteins including DDX3 bind the RNA motif, and TGF-β1 regulates their protein levels and/or binding to the motif. Inhibiting DDX3, either by siRNA or small molecule inhibitors, reduced TGF-β1 induced NEU3 levels. In the mouse bleomycin model of pulmonary fibrosis, injections of the DDX3 inhibitor RK-33 starting 10 days after bleomycin potentiated survival and reduced lung inflammation, fibrosis, and lung tissue levels of DDX3, TGF-β1, and NEU3. Together, these results suggest that TGF-β1 regulates RNA-binding proteins that interact with a mRNA motif that is necessary and sufficient for TGF-β1 to regulate mRNA translation, and that blocking this effect can reduce fibrosis.

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Multifunctional RNA-binding proteins influence mRNA abundance and translational efficiency of distinct sets of target genes

Cited by 5 publications

References 99 publications

Single cell phototransfection of mRNAs encoding SARS-CoV2 spike and nucleocapsid into human astrocytes results in RNA dependent translation interference

Single cell phototransfection of mRNAs encoding SARS-CoV2 spike and nucleocapsid into human astrocytes results in RNA dependent translation interference

Protein Binding to Cis-Motifs in mRNAs Coding Sequence Is Common and Regulates Transcript Stability and the Rate of Translation

Inhibiting a mRNA motif binding protein that mediates TGF-β1 upregulation of translation attenuates pulmonary fibrosis in mice

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